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Transcriptome profiling in fast versus slow-growing rainbow trout across seasonal gradients

Permanent URL:
http://handle.nal.usda.gov/10113/61849
File:
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Abstract:
Background: Circannual rhythms in vertebrates can influence a wide variety of physiological processes. Some notable examples include annual reproductive cycles and for poikilotherms, seasonal changes modulating growth. Increasing water temperature elevates growth rates in fishes, but increases in photoperiod regime can have similar influences even at constant temperature. Therefore, in order to understand the dynamics of growth in fish it is important to consider the background influence of photoperiod regime on gene expression differences. This study examined the influence of a declining photoperiod regime (winter solstice) compared to an increasing photoperiod regime (spring equinox) on white muscle gene expression profiles in fast and slow-growing rainbow trout from a commercial aquaculture strain. Results: Slow-growing fish could be characterized as possessing gene expression profiles that conform in many respects to an endurance training regime in humans . They have elevated mitochondrial and cytosolic creatine kinase expression levels and appear to suppress mTORsignaling as evidenced by elevated TSC2 expression, and they also have elevated p53 levels. Large fish display a physiological repertoire that may be consistent with strength/resistance physiology having elevated cytoskeletal gene component expression and glycogen metabolism cycling along with higher PI3K levels. In many respects small vs. large fish match eccentric vs. concentric muscle expression patterns, respectively. Lipogenic genes are also more elevated in larger fish, the most notable being the G0S2 switch gene. M and Z-line sarcomere remodelling appears to be more prevalent in large fish as evidenced by higher MuRF1 levels along with several other genes. Twenty-three out of 26 gene families with previously reported significant SNP-based growth differences were detected as having significant expression differences. Conclusions: Larger fish display a broader array of genes showing upregulation in expression, and their profiles are more similar to those observed in December lot fish (i.e., an accelerated growth period). Conversely, small fish display gene profiles more similar to seasonal growth decline phases (i.e., September lot fish). Metabolism class genes are more upregulated in small fish and they possess many upregulated genes related to nucleobase turnover and RNA processing and enhanced catabolism. Large fish display higher cellular turnover components (i.e., cell death, apoptosis) and have elevated expression for stress response, signal transduction, and cell-cell signaling genes.
Author(s):
Roy G. Danzmann , Andrea L. Kocmarek , Joseph D. Norman , Caird E., III Rexroad , Yniv Palti
Note:
USDA Scientist Submission
Source:
BMC Genomics 2016 1 15 v.17 no.60
Language:
English
Year:
2016
Collection:
Journal Articles, USDA Authors, Peer-Reviewed
Rights:
Works produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted.